X-Git-Url: https://scm.lunaixsky.com/lunaix-os.git/blobdiff_plain/48b4a227035048fdebcd32532deb7a857c6199ac..69777bdcab284335651a8002e2896f3862fa423d:/lunaix-os/kernel/mm/dmm.c diff --git a/lunaix-os/kernel/mm/dmm.c b/lunaix-os/kernel/mm/dmm.c index dee5d28..f665e9d 100644 --- a/lunaix-os/kernel/mm/dmm.c +++ b/lunaix-os/kernel/mm/dmm.c @@ -1,89 +1,62 @@ -/** - * @file dmm.c - * @author Lunaixsky - * @brief Dynamic memory manager for heap. This design do not incorporate any\ - * specific implementation of malloc family. The main purpose of this routines is to - * provide handy method to initialize & grow the heap as needed by upstream implementation. - * - * This is designed to be portable, so it can serve as syscalls to malloc/free in the c std lib. - * - * @version 0.2 - * @date 2022-03-3 - * - * @copyright Copyright (c) Lunaixsky 2022 - * - */ - -#include +#include #include -#include +#include #include #include +#include +#include - -int _syscall_sbrk(void* addr) { - heap_context_t* uheap = &__current->mm.u_heap; - mutex_lock(&uheap->lock); - int r = lxsbrk(uheap, addr); - mutex_unlock(&uheap->lock); - return r; -} - -void* _syscall_brk(size_t size) { - heap_context_t* uheap = &__current->mm.u_heap; - mutex_lock(&uheap->lock); - void* r = lxbrk(uheap, size); - mutex_unlock(&uheap->lock); - return r; +void +__heap_copied(struct mm_region* region) +{ + mm_index((void**)®ion->proc_vms->heap, region); } int -dmm_init(heap_context_t* heap) +create_heap(struct proc_mm* pvms, ptr_t addr) { - assert((uintptr_t)heap->start % BOUNDARY == 0); + struct mmap_param map_param = { .pvms = pvms, + .vms_mnt = VMS_SELF, + .flags = MAP_ANON | MAP_PRIVATE, + .type = REGION_TYPE_HEAP, + .proct = PROT_READ | PROT_WRITE, + .mlen = PAGE_SIZE }; + int status = 0; + struct mm_region* heap; + if ((status = mmap_user(NULL, &heap, addr, NULL, &map_param))) { + return status; + } - heap->brk = heap->start; - mutex_init(&heap->lock); + heap->region_copied = __heap_copied; + mm_index((void**)&pvms->heap, heap); - return vmm_alloc_page(__current->pid, heap->brk, NULL, PG_PREM_RW, 0) != NULL; + return status; } -int -lxsbrk(heap_context_t* heap, void* addr) +__DEFINE_LXSYSCALL1(void*, sbrk, ssize_t, incr) { - return lxbrk(heap, addr - heap->brk) != NULL; -} + struct proc_mm* pvms = vmspace(__current); + struct mm_region* heap = pvms->heap; -void* -lxbrk(heap_context_t* heap, size_t size) -{ - if (size == 0) { - return heap->brk; + assert(heap); + int err = mem_adjust_inplace(&pvms->regions, heap, heap->end + incr); + if (err) { + return (void*)DO_STATUS(err); } + return (void*)heap->end; +} - void* current_brk = heap->brk; - - // The upper bound of our next brk of heap given the size. - // This will be used to calculate the page we need to allocate. - void* next = current_brk + ROUNDUP(size, BOUNDARY); - - // any invalid situations - if (next >= heap->max_addr || next < current_brk) { - __current->k_status = LXINVLDPTR; - } +__DEFINE_LXSYSCALL1(int, brk, void*, addr) +{ + struct proc_mm* pvms = vmspace(__current); + struct mm_region* heap = pvms->heap; - uintptr_t diff = PG_ALIGN(next) - PG_ALIGN(current_brk); - if (diff) { - // if next do require new pages to be allocated - if (!vmm_alloc_pages(__current->pid, (void*)(PG_ALIGN(current_brk) + PG_SIZE), - diff, - PG_PREM_RW, 0)) { - __current->k_status = LXHEAPFULL; - return NULL; - } + if (!heap) { + return DO_STATUS(create_heap(pvms, (ptr_t)addr)); } - heap->brk += size; - return current_brk; + assert(heap); + int err = mem_adjust_inplace(&pvms->regions, heap, (ptr_t)addr); + return DO_STATUS(err); } \ No newline at end of file